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Hydraulically Controlled Mechanical Seal for Reactor Coolant Pump
Richard F. Salant and William R. Johnson, Georgia Institute of Technology
Gary Boles, EPRI
STLE Annual Meeting and ExhibitionMay 25, 2017
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The Westinghouse #1 RCP Seal
• 410 Stainless Steel face holder
• Aluminum Oxide or Silicon Nitride face
• Pressurized at 15.5 MPa at OD, 0.48 MPa at ID (2250 to 70 psi)
• Seal injection system cools water to ~66 °C (150 °F)
• Nominal leakage rate = 11.36 L/min (3.0 gpm)
2Ring is pre-coned for full film lubrication.
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Abnormal Leakage Rates
� Undesirable high or low leakage rate.
� Common causes:
� Electrophoresis (Chemical Deposition)
� Pump Transients
� Temperature and Pressure Excursions
� Can require reactor shutdown in extreme cases.
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Controllable Seals – a Potential Solution
� Limited mitigation options has motivated interest in a method of active control of leakage rate.
� Previous controllable seals – two methods:� Control the closing force� Control the opening force by controlling face
geometry (especially the coning!)
� Controlling coning is preferred for stability.� Based on ℎ�~ � where ℎ� is the film
thickness at the ID and � is the coning.
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Coning
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Proposed Controllable Seal for RCP
� Proposed seal face uses hydraulically pressurized internal cavity for active control of coning to adjust leakage rate.
� Proposed seal face is drop-in replacement for existing Westinghouse #1 seal face.
� Numerical models created to predict approximate performance.
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The Modeled Face
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Hydraulically Controlled Seal Geometry
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Seal Behavior & Numerical Model Components
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Numerical Modeling
� Model couples deformation and fluid mechanics in face gap
� Fluid mechanics solved numerically using Reynolds Equation in Python
� Deformation solved using finite element analysis (ABAQUS)
� Solve iteratively until converged solution is reached
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Computational Procedure
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Types of Results of Simulations
� Varying leakage rate
� Set nominal closing force.
� Vary control pressures.
� Compute leakage.
� Restoring nominal leakage rate
� Perturb closing force from nominal value.
� Compute leakage (“uncontrolled leakage”).
� Change control pressures until nominal leakage is obtained.
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Varying Leakage
Cavity Pressure Leakage, �. � cavity base,
� = 80, � = 200
MPa PSI L/min GPM
0.1 14.5 28.24 7.46
1 145 27.13 7.17
2 290 26.12 6.90
4 580 23.33 6.16
6 870 19.80 5.23
8 1160 16.00 4.23
10 1450 11.15 2.95
12 1740 5.12 1.35
14 2031 0.86 0.2313
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Restoring Nominal Leakage Rate (Table)
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Cavity Pressure Corrected Leakage Uncorrected Leakage, P = 9.875 MPa
Fclose (MN) MPa PSI Q (L/min) Q (gpm) Q (L/min) Q (gpm)
0.450 12.3 1784.0 11.48 3.03 33.18 8.77
0.460 12.05 1747.7 11.50 3.04 25.81 6.81
0.470 11.55 1675.2 11.25 2.97 20.43 5.40
0.480 11.0 1595.4 11.31 2.99 15.76 4.16
0.485 10.75 1559.2 11.25 2.97 14.32 3.78
0.490 10.3 1493.9 11.25 2.97 12.40 3.28
0.495 9.875 1432.2 11.36 3.00 11.36 3.00
0.500 9.25 1341.6 11.33 2.99 9.69 2.56
0.505 8.45 1225.6 11.30 2.99 8.63 2.28
0.510 7.4 1073.3 11.33 2.99 7.67 2.03
0.515 6.3 913.7 11.37 3.00 6.55 1.73
0.520 4.6 667.2 11.19 2.96 5.68 1.50
0.525 2.0 290.1 11.26 2.97 4.91 1.30
0.528 0.1 14.5 11.32 2.99 4.48 1.18
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Restoring Nominal Leakage Rate (Plot)
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Stress Distribution of Uncorrected Flow� Maximum von
Mises stress =595 MPa
� Yield strength of 410 stainless steel = 1005 MPa
� Maximum von Mises stress is compressive, circled in red.
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Stress Distribution of Corrected Flow
� Maximum von Mises stress =193 MPa
� Yield strength of 410 stainless steel = 1005 MPa
� Maximum von Mises stress is compressive, circled in red.
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Face Deformation
• Face deformation for selected corrected flow rates. Cavity pressures to correct for closing force given in legend.
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Pressure Distribution
• Pressure distributions for selected corrected flow rates. Cavity pressures to correct for closing force given in legend.
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Conclusions from Simulation
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� Hydraulically controlled seal has control range of 28.7 L/min (7.6 gpm) of abnormal leakage rate correction.
� The seal provides sufficient active control to address many abnormal leakage rate scenarios.